Apparatus for food processing



Feb. 23, 1943. J. MILLS APPARATUS FOR FOOD PROCESSING 13 Shets-Sheet A1 Fil'ed July 6, 1939 16m, o n

Feb. 23, 1943. J. MILLS' 2,312,114'y I APPARATUS FOR FooD PROCESSING Filed July e, 1939 15 sheets-sheet 2 .IQ/zw Mills.

Feb. 23, 1943. J. MILLS APlARATUS FOR OOD PROCESSING l Filed July 6, 1959 13` Sheets-Sheet 3 Feb. 2:559 1943.

J. MILLS APPARTUS 'FOR FOD PROCESSING Fi1ed July. e, 1939 15 sneets-sheem A P r l SRAM Feb. 23, 943. J. MILLS v APPARATUS FOR FOOD PROCESSING Filed July 6, 1939A f 13 Sheets-Sheet 5 Feb. 23, 1943. A.1. MILLS APPARATUS FOR FOOD PROCESSING' Filed July 6, 1959 l5 Sheets-Sheet 6 Syvum/bom label/,dis

#WU/www s Feb. 23, 1943. MgLLS 2,312,114

APPARATUS FOR FOOD PROCESSING Filed July e, 1939 15 sheets-shee't 7 Feb 23g w43, J. MxLLs APPARATUS FOR FOOD PROCESSING Filed July 6, 1939 15 Sheets-Sheet 8 Feb. 23, 1943. '.1. MlLLs APPARATUS FOR FOOD PROCESSING Filed July 6, 1939 13 Sheets-Sheet @www5 Feb. 23, 1943. J MILLS 2,312,114 ,l

APPARATUS FOR FOOD PROCESSING -f ff,

T0/UL 1113115.

MMA/1215 Feb. 23, 1943.

.1. MILLS APPARATUS FOR FOOD PROCESSING 13 sheets-sheet 11 Filed July 6, 1939 Snam .Ich Mil/s.

Feb. 23, 1943. J. MILLS APPARATUS FOR FOOD PROCESSING Filed July 6, 1939 13 Sheets- 8169111.12

Feb. 23, 1943. J, MlLLs APPARATU Foa F0013 PROCESSING Filed July 6, 1939 l 13 Sheet's-Sheet 13 3mm/m l @fui-Md@ @41 I@ Patented Feb. 23, 1943 Arrm'ros Fon roon Pnoccssnvc 101m m11, Philadelphia, r, amor to crown cn l o! Pennsylvania Philadelphia, Pa., a corporation Application .my s, 1939, serai No, 283,115 1s claims.' (ci. ssa-251) The present invention relates to machines for treating products in containers, particularly food products such as fruit and fruit juices, vegetables and vegetable juices and milk and milk products.

The machine is designed to treat products in containers of the valved type, lor instance, as described in the patents to Fenn, No. 1,728,533. September 17, 1929, and Ford, No. 1,963,782, June 19, 1934, although it will be apparent that it may be adapted for use in processing products in other types of containers. l

The principal object of the invention is to provide an improved machine for treating products in containers wherein the air and gases are removed irom the head space o! the containers and thereafter the product is treated with steam or the like to sterilize or cook the product. More particularly, it is intended to provide an improved machine which provides for removal of air and gases from the head space of the containers when they are in substantially upright position, and thereafter automatically inverts the containers and supplies steam under pressure to intimately treat all parts of the product therein.

An object of the invention is to provide a machine for simultaneously treating products in a group of containers in the manner referred to above. l

y Another object of the invention is to provide a revoluble turret carrying receivers for the containers, the receivers having means for controlling the exhaustingl of air from, and inlet of steam to the containers, by individual movement of the receivers during revolution of the turret, as distinguished from providing such control with a central valve on the turret. More speciilcally, it is an object of the invention to provide such control by rotation of the individual container `receivers during-revolution of the turret.

Ancillary to the preceding objective, it is a purpose of the invention to provide a machine as referred to, wherein rotation of the individualcontainer receivers during revolution of the turret provides for preliminary exhausting air and gases from the head space of the containers, and thereafter causes steam to be supplied to the interior of the containers during further revolution of the turret, the receivers carrying the containers in substantially upright position during the exhausting step and moving them to vinverted position for treatment of the product with steam. More particularly, each of the container receivers is provided with a port which registers with steam and exhaust ports carried by a. supporting memv ber or bracket by which the receiver is attached to the turret, said ports moving into and out of register by rotation of the receiver on its bracket during revolution of the turret, to treat the contents of the containers as described above.

Another object of the invention is to provide a container receiver which is adapted to carry a group of containers and provide for simultaneously treating their contents as referred to above. Included in the preceding objective, it is the intention of the invention to providesuch a receiver having a treating head and a lcan supporting platform adapted to support a plurality of containers, said receiver having means thereon operable during revolution of the turret for moving the supporting platform upwardly to engage the containers with the treating head and downwardly to bring the containers out of engagement with the treating head, the containers being fed onto and discharged from the platform when the latter has been moved downwardly.

A further object of the invention is to provide a machine of the above type having infeed mechanism, including a conveyor for bringing the containers in a line to the infeed station adjacent the turret, and means for there arranging a number of the containers in a' group and for simultaneously feeding the group so arranged onto the turret in side by side relation, the group being received by one of the receivers on the turret. More particularly, the infeed includes a. continuously operating conveyor which approaches the turret tangentially, a gate at the infeed station which extends across the conveyor to block the movement of the containers on the conveyor, an infeed plunger operating across the conveyor in iront of the gate, and a trip iinger behind the gate responsive to the proper positioning of a group of containers against the gate which operates to permit withdrawal of the gate for passage of the group of containers and subsequent inward movement of the infeed plunger to feed said group of containers onto the turret.

Another object of the invention is 'to provide a machine of the above type having means which discharges the groups of containers from the turret, and spaces the containers of a group from one another 'as they are discharged. This discharge means is provided so that the containers y may be passed in spaced relation, one behind another, to a device which individualiy seals the containers. The sealing device may take various forms, depending on the type of containers being treated. In this appiication, I have disclosed the sealing device as being a clinching unit for containers of the valved type. said unit being of any appropriate construction similar to that described in my Patent No. 2,054,092, Sept. 15, 1936,

and illustrated in Fig. thereof. More speciically, the discharge means comprises a star wheel having cooperating spaced fixed and movable teeth, one container of a group being en gaged by a fixed tooth and one by a cooperating movable tooth as the containers are taken from the turret, the spacing of the movable tooth from the iixed tooth being widened by a cam during turning of the star wheel to properly space the containers as they are discharged. Thus, the

container sealing device or clincher can conveniently operate on the containers individually as they are fed thereto in spaced relation.

Another object of the invention is to provide a container discharge means which removes the containers from the turret in groups. Associated with this means is a multiple sealing unit, or clinching device, of any appropriate construction, which simultaneously seals or clinches the Avalves of a group of containers. This clinching device is located over a continuation of the infeed conveyor, and may be of any well known construction, such as is illustrated in the Mills `Patent No. 2,054,092, but made multiple to operate on a group of containers, and an elevating .platform is provided onto which the group of containers is discharged, this platform raising the group of containers up through the conveyor to the clincher. Thereafter, the platform lowers the group of containers back onto the conveyor, and the latter carries them away from the machine.

Ancillary to the preceding objective', it -is a purpose of the invention to provide a combined infeeding and discharging mechanism for feeding a group of containers onto the turret and lfor discharging them therefrom in a group. vThis combinedmechanism comprises the gate and infeed plunger previously referred to, and attached to the latter is a. discharging arm which operates in conjunction with said plunger to discharge a group of containers from the turret when the-infeed plunger is retracted after having fed a group of containers onto the turret.

Various other o bjects and advantages of the invention will be apparent as the specification progresses. n

In the drawings, which are illustrative of machines embodying the invention, which drawings are not intended to restrict the invention to any precise form or forms:

Figure 1 is a top plan view of one side of the machine at the infeed and discharging stations, with portionsof the enclosure broken away to show the operating parts.

Figure 1a is a similar top plan viewshowing that part of the machine not in view in Figure 1.

Figure 2 isa central vertical sectional view of the side ofthe machine shown in Figure 1.

Figure 2a is a similar central vertical sectional view of that part of the machine in view in Figure 1a.

Figure 3 is a central vertical sectional view of a container receiver and itsbracket, taken radiallyvof the turret.

Figures 4 and 5 are face views of the fixed valve members of thecontainer receiver brackets, looking toward the center of the turret.

Figure V6 is a side elevational view of the body of one of the container receivers, looking outwardly from the center of the turret and showing "the support for the containers in elevated position.

Figure 7 is a view similar to' Figure 6, but partly in section, showing the container platform in depressed position.

Figure 8 is' a perspective view of the container receiver support and platforms, showing the container centering. bracket.

Figure 9 is a side elevational view of a container receiver, partly in section, looking toward the. center of the turret.

Figure 10 is a view looking down on the receiver track of the turret, showing the receiver Vrotating cams or teeth.

Figure 11 is a side elevational view of the track and cam of Figure 10.y

Figures 12 through 16 are diagrammatical side views showing successive positions oi a container receiver as it is rotated through i8@ degrees on its axis, theviews being assumed to be taken looking toward the center of the turret.

Figure 17 is an enlarged plan view of the infeed mechanism shown in Figure `l. This view also shows a modification of `the .invention wherein means for simultaneously discharging pairs of containers from the turret is Secured to the infeed mechanism.

Figure 18 is a side elevational view of the mechanism for latching the infeed plunger to the gate which extends over the conveyor at the infeed station. Y V

Figure 19 is an end view Aof the mechanism of Figure 17, looking outwardly from theturret.

Figure 20 is a vertical sectional view through the table at the side of the turret, showing the container discharging star wheel and 'the inditionA of the container discharging star wheel,

showing the manner of removing a pair of containers from the container receiver.

Figure 25 is a top plan view of one side of the machine, similar to Figure 1, but showing a modified arrangement for simultaneously discharging and clinching pairs of containers.

Figure'26 is a vertical sectional view of the modified machine of Figure 25. A

Figures 27 and 28 are detail views of the overhead cam at the infeed and discharging stations for lowering the container supporting platforms on the container receivers.

Referring to Figures 1, 1a, 2 and 2a, the turret T is shown mounted for rotation about a vertical axis. Adjacent its periphery, the turret carries a plurality of container receivers R. Any appropriate number of said receivers may be employed, but in the drawings I have illustrated a turret carrying fifteen of such receivers. Each receiver is supported for individual rotation during revolution of the turret on a supporting member or bracket B, and is adapted to simultaneously receive for treatment a plurality of containers. 'Ihe receivers are designed to receive two containers inA the embodiment disclosed in the drawings.V

As viewed in Figure 1 and la, the turret revolves about its vertical axisn a clockwise direction, and extending tangentially of the turret' :turret in a line toa container infeedstation,

indicated generallyy by the numeral F at the left hand side of Figure `1. The containers approaching the turret on the conveyor are fed onto the turret container receivers in'groups of two,. in a manner hereinafter described, and each group is carried around with the turret by a receiver while the contents of the rcontainers are being treated. When the containers are fed `to their receivers, valve mechanism associated with the latter places the contents of the containers in communication with a source of suction or vacuum, and air and gases are exhausted from the head space of the containers which are at this time in an upright position. 'Thereaften as the turret revolves, a suitable cam I1, Figure 1a, carried by the turret, cooperating with the receivers, serves to turn or rotate them throughout 180 to inverted position. As the receivers are being rotated and after they are so inverted, steam is caused to be injected into the contents of the containers to treat the product therein. When a particular receiver has been carried almost completely around the turret, it approaches a discharging station indicated generally by the letter D at the left hand side of Figure 1, where a container discharging mechanism, to be later described, removes the containers from the receivers and from the turret, and carries them to a container sealing or clinching mechanism indicated generally bythe letter S. Just before a particular receiver reaches the discharging station, another receiver turning or rotating cam I2, Figure l, on the turret, comes into operation, and again turns'the receivers through 180 to place them `in upright position preliminary to their being discharged. yAs the particular receiver moves into Athe discharging station, an overhead cam L, Figure 2, causes the container supporting platform on the receiver to be depressed so that the containers may be discharged.

l The revoluble turret and container receivers AReferring to Figures 2 and 2a, the turret is carried on a base I0. Secured o n the base is an upwardly extending frame member II carrying a central tubular casting I2 which forms a support for a ball bearing I3. `Secured across the top opening of the frame `member I I. is a substantially circular plate I4, which forms a support for a second ball bearing I5.-

'I'he turret comprises a central vertical hollow shaft I6 mounted for rotation in the bearings I3 and I5, and a hollow casting I'I which constitutes the turret proper.' lThe hollow closed interior I8 ofthe casting I1 constitutes -a turret exhaust chamber Ifor. a purpose to be later described. yThe peripheral area I9 of the top of the turret has secured `thereto supporting memvbers or brackets Bfforthe container receivers The turret castingA R,- as previously referred to. IIis provided `with a central opening and is-iitted around and 'secured' to the hollow shaft I6.

from the containers. I'he interior oi' the hollow shaft I6 is in communication with the interior I8 of the'turret proper by such means as open-v ings 24 in the shaft.

The turret steam chamber 2| is equipped with a plurality of outlets, one foreach container receiver, and a plurality of steam pipes 25` constantly maintain communication between' this chamber and 'auxiliary steam chambers Within eachof the chambered container receiver brackets B .as shown in Figures y1 and 1a.- Exhaust ried on a drivevshaft 29, Figure la, which is journaled in the frame of the machine. Shaft 29 carries a worm 30 which meshes with and drives the gear 20 on the hollow central shaft I6 of the turret. Shaft 29 also extends beyond the point where its worm engages gear 20 to drive the infeed conveyor, the main cam drum `of the infeed mechanism, the star wheel discharge, and the container clincher, as `will be later described.

Figures 3jthrough 9 disclose the construction of the container receivers and their supports or brackets. Each bracket B is bolted to Vthe outer surface I9 of the turret, and comprises a chaml bered outside shell 38 having a central longituvalve member 40 having a spherical valve face 4I.'

The hollow sleeve 39 has a pair of spaced bear; ing rings 42 therein'. These rings supportalcontainer receiver shaft 43 for rotation within sleeve 39. The shell 38 is hollowed out at 43 and 44,

'p cation with the steam une z5, while exhaust chamber 44 is connected with and is in continuous communication with the exhaust line 26. The valve member 40 has an exhaust port 45 extending therethrough adjacent itsupper end.. It also has an arcuate steam port 46 extending therethrough."

Figure 4 shows the face of/the'valve member 46, looking towardthe centervof the turret.y The exhaustporrl isof limited vextent, and located .adjacent the vupper end of the valvemember,

while lthe steam port46 extends, through anarc 'of substantially 180 beginning at a vpositimf'sutstapt'iauy 30 fram Ath@ .tjop' Aradius. une 'of the 1 valve member, as shown in' Figure 4.

4Thev receiver comprises avbody 48 and acontainer support 49. Secured to the innerfwall of the body of 4the receiver is a .plate '41 vwhichconstitutes a .movable `valve member. plate has a f valver headerport for `passage `5I) `"extendingy upi f wardly` therethrough, whichcontinues up into ypressed w toward .theirgseats,` abut v the' treating head 5I, wher?.y `it ,J'ns a, yhurl .lzc'intal passagel extending betweenthe'two valve header /housingsei,andk 54 yas shown .lin ,Figure 9.

z `,The YnVehedermQuSmgs are hollw. and ythey carry therein header valves 55 which are springmay be raised from their seats by the elevation of a coningsis a containrf-platform B8. forms are biased tainer in the receiver as shown in Figure 3..l The v construction of the individual valve headers is similar to that shown in Figure of the patent to Mills, No. 2,054,092, Sept. 15, 1936, and the- .v valves of the containers operated on by the machiner of the present invention are substantially `the chamber 58 of the valve header, and through passages 52 and 50 to either the steam chamber 43' or the exhaust chamber 44. depending on the degree of rotation of the receiver.

The receiver is rigidly secured to an extension 6I of the receiver shaft 43, and rotates therewith, as will be later referred to.

The container support is rigidly secured to the lower ends of a pair of Vbolts 62 (see Figures 6 and 7) which extend and are slidable through the body of the receiver and are attached lat ytheir upper ends to a container support depressing bracket 63. Bracket 63 carries a cam roller 64 which is adapted-to engage the platform depressing cam L as shown in Figure 'l to lower the containersupport at the infeed and dis'- charging stations of the turret.

As shown v:in Figure '1, the body o f the receiver is drilledv out to provide spaced spring chambers `65, in `which are carried relatively heavy springs 66 which engage and normally bias the asians 4 has secured thereto a container centering braak-l,v

et llhavin'g dual container positioning arms, one for each container on the platforms".

These arms extend to the rear of the containers`v when they are positioned on the platforms 4l, and are provided with straight inside 4and outside container centering faces 1i and 11, respectively. said faces being adapted to lie tangentially to the outside of the .cylindrical containers when the same are positioned on the platforms against the bracket. When a-pair of containers are centered on their supporting platforms by the bracket 11i, the point where each centering face 16 is tangent to and touches -the container will be 90from the similar point of contact of the cooperating centering face 11. The planes in whichV the cooperating `faces 1i and 11 lie are at right angles to each other,

and perpendicular lines drawn from the center -of these faces where they touch a correctly centered container will meet at the center of the platform 8l. .The faces 18 and 11 not only serve to center the containers on thel platforms, but also assist in the discharging of the containers therefrom as will be hereinafter described.

Returning to Figure'3, the extension Il of the I shaft 43 is rigidly secured to the body of the `bracket 63 upwardly, and thus tend to keep the container support49 in its uppermost position. 'I'he containersupport 49 is best shown in Figures 3 and 8'. -It'has two spaced cylindrical openings 61 therethrough, Figure 3, and mounted for limited, movement in each of said open- These plattfowardf'their uppermost position, when'they areievel with the-top face'of l the support 49; by 'springs `B9, the lower ends oi' which are held by brackets 10 attached -to the can platform. The fuppersurface of the container support 49 surrounding each opening rI1 is covered with a thin stainless steel sheet 1|.

From the above description, it will be apparent that when the roller 64 engages beneath the container platform depressing ycam L, the bolts I2 are forced downwardly through the body of the receiver `to lower thc container support 4l, as

shown in Figure '7. At this time, thecontainers may be fed onto or removed from the platforms tl. Thereafter, when the cam roller 44 is noy longer inuenced downwardly bythe container depressing cam L, kthe springs 00 cause the bolts $2 to be moved upwardly, thus elevating the container supportupwardly toward the valve headers 53 and 54, When so moved upwardly, the projections 51 on the containers engage the gaskets surrounding the openings to the interior of the valve headers 53 and i4, and hold the valve t. of the containers and the valves Il of the headers open. The yielding mounting of the container platform 68 permits the receiver to accommodate itself to containers of different sizes, and to automatically compensate for slight variationsin the dimensions of containers'of a particular size.

As shown in container receiver asby means of nut l5. 'I'he movable valve plate 41 is preferably removably secured by screws 86 in a depression on the inner face of the receiver body. so that said plate may be replaced when worn. The outside of the 'fixed valve sleeve l! beyond the inner end of the bracket B is threaded as shown, and a nut l1 serves torigidly secure the xed valve sleeve in place, the inner face of the fixed valve 4l being thereby tightly engaged with the outer face ofthe bracket B, so that the ports 4I and 4l constitute extensions of the auxiliary chambers 43 and 43', respectively, without there being any leakage from the chambers.

the inner end of a spring-92, which surrounds the inner end of the fixed valve sleeve Il ,and

abuts at its outer end against the inner face of the nut81. Thus, when the receiver and shaft 4Il are rotated, lcollar I8 and ring Il will vrotate laround the ball race,'ring Il remaining in fixed position. However, the inwardthrust of spring` 92 is transmitted to the valve shaft 4I and serves to tightly press the inner spherical i'acefof the movable valve 4? against the corresponding spherical face of the fixed valve 4l, preventing appreciable leakage 'along the faces vof the valves.

When a pair of containers isvfed onto a. re`

ceiver at. station F in Figiue 1, the container platform will be depressed by the cam L, 5s

shown in Figure 2, until it is level with the upper surface of the table .Il along which the conveyor passes. As the container support 4l is thus depressed. the containers, when fed thereon, will not engage' the valve headers I3 and 84 which are thereby spaced from` the container platform a distance greater than the height of the containers. Therefore. the header valves ,Il

wm `initially remain at the time orinfeed, the inner end of the passage is in oommunication with the exhaust. port 4I and through the auxiliary exhaust chamber with the conduit 2l which leads to the main chamber |8 in the turrent, this chamber being in communication with a source of vacuum, such as a vacuum pump or other device connected to the pipe 23 shown at the bottom of Figure 2a. After the containers have been fed onto the platforms 68 of areceiver, and as the turret revolves and carries the receiver in a clockwise direction away from the infeed station, as viewed in Figure 1, the container platform depressing roller 54 moves out from under the cam L, and springs 6B elevate the container support until the annular circular projections 51 on the containers contact and seal with the openings into the valve headers 53 and 55. At this time, the valvesare opened by the engagement of their depending projections G with the valves 56 of the containers as shown in Figure 3. The source of vacuum or suction is thus placed in communication, as previously described, with the head space of the containers, withdrawing air and gases therefrom.

Thereafter, as the turret revolves, the receivers are rotated to an inverted position by the inverting cam I', shown in Figure 1a, and as the inner end of the port 50 moves in a counterclockwise direction around the outer face of the valve i0, as viewed in Figure 4, communication from the containers to the exhaust port 45 is closed, and immediately thereafter port 50 registers with the steam port 46 of the fixed 4valve 40. As previously pointed out, the steam port 45 is in constant communication with the steam chamber 43 in the bracket B, and this chamber is constantly in communication with a source of steam under pressure through the line 25, which enters the central steam chamber 2|, shown in the container valves by the projection 60 on the header valves 55, and as a considerable `pressure V of steam within the containers will have been Figure 2a, the latter chamber being supplied with steam through the pipe 22 from any appropriate source. As the container receiver is caused to rotate with the shaft 43, and while the container valves are holding the valves 55 of the treating heads in open position, the communication of A port 50 withsteam port 46 causes steam under pressure to be forced into the containers, the

` supplying ,of steam beginning as the receivers are inverted, and continuing Vwhile they are maintained in their upside down position throughout the major arc of revolution of the turret. 'I'he steam treats and sterilizes the contents of the containers, and penetrates throughout all parts thereof.

As the continued revolution of the turret brings the particular receiver toward the discharging station D, shown in Figure 1, another cam I2 (Figure 1) causes the receivers to be again partially turned in a counter-clockwise direction on the shaft 43. This rotation of the receiver moves the port 50 beyond the end of the steam port 46, thus closing the supply of steam to the containers. 'I'he second receiver rotating cam I2 causes the receiver to be brought back to the upright position of Figure.3, and as the particular receiver reaches the discharging station D, the container platform depressing roller 54A again moves under the overhead cam L and depresses the platform 49 to the level of the table 95, so that a discharge mechanism, to be hereinafter described, can engage the containers and disbuilt up by the treatment previously described, this pressure keeps the container valves in closed position.

'I'he containers are then removed from the turret and are mechanically clinched orsealed iny a manner hereinafter described.

The construction of the apparatus previously described is principally adapted to treat containers of the valved type and their contents by preliminarily exhausting air and gases therefrom by suction, and then treating the product with steam under pressure. In some instances, however, it may be more desirable to follow a method as described in the copending application of David L. Loetscher, Serial No. 266,367, filed April 6, 1939, wherein the air and gases are exhausted from the head space of the containers in a diiferent manner. In the said Loetscher application, a method is described in which steam. under pressure is preliminarily injected into the headspace of the containers for a short period of time, and this quantity of steam is then permitted to exhaust to atmosphere, carrying with it air and gases from the head spaces of the containers. The Loetscher process of exhausting air k and gases has the advantage of not requiring accurate regulation of the degree of preheating of the product with the degree of vacuum or suction applied, as is necessary when the method of exhausting by vacuum or suction, previously described, is employed.

The present apparatus, including the container receivers and their chambered supporting brackets, can be utilized in carrying out the above mentioned Loetscher process by a simple modiiication of the ports in the stationary valve member 40. Figure 5 is a face View similar to Figure 4, of a modied fixed valve member |00 modified for practice of the Loetscher method. The steam port |0|, similar to port 46, begins approximately 30 degrees in a. counter-clockwise direction from the top vertical-radius line of the face of the valve |00, and extends throughout almost the entire arc of the valve, having an end portion |02 extending just beyond said top radius line. Between the initial and terminating edges of the port |0I, there is a relatively small exhaust port |03, similar to port 45,' and extending through the fixed valve member |00. 'Ihe use of this modified valve will not require any substantial changes in the apparatus previously described, for the only modification that need be performed, is the replacing of the sleeve 39 of Figure 3 with a different sleeve having a iixed valve |00 of the type shown in Figure 5 and described above. In the modified construction, theV steam port |0| is in constant communication with the auxiliary steam chamber' in the bracket B, while the exhaust port |03 is in constant communication with the auxiliary exhaust chamber 44. The auxiliary steam chamber 43' 'is`in con-- auxiliary exhaust chamber M is in continuous communication with the turret exhaust chamber I8 through the conduit 26. The main turret Vchamber |8 may have any suitable means for rel-lefv therefrom to atmosphere. Referring to Figure 2a, the lower end of the pipe 2'3v which is in communication 4with the chamber LI8 through the openings, may simply be open to atmosphere.

The operation or the mod'irledappara'tus is very similar to that of` the embodiment completely illustrated in the drawings. When the' containers are fed onto their supporting-platforms on a receiver, said platforms are depressed by the overs Y head cam L. ,'I'hereafter, as the particular receiver leaves the infeed station in a clockwise direction as viewed in Figure 1, the heavy springs on the receiver elevate the container platforms when the roller 50 leaves the cam L, bringing the protruding parts 51'ofthe containers into sealing engagement with their respective header valves, as previously described. At this time, the inner end of the passage 50 is in communication with theA upper end |02 of the steam port |0| (Figure- 5) which extends beyond the upper central -radius of the fixed valve |00'. When the container supporting platforms force the container valves into sealing engagement with the valve headers and thus open the header valves 55, there is an injection of steam under pressure into the head space of the containers. The period of this injection may be quite short, as described in the said Loetscher application, and is immediately terminated when the receiver begins to rotate with the shaft 43 in a counter-clockwise direction (Fig. 5) as the turret revolves. The receiver is rotated by the came I| (Fig. la) on the turret track as heretofore mentioned, and as the valve face 4l of the receiver turns with respect to the iixedvalve face |00, the preliminary steam injection is cut off and the inner end of the passage moves past the exhaust port |03. As the end of passage 50 crosses port |03, the steam in the head space of the containers is exhausted tol atmosphere, passing outwardly through -port |03, exhaust chamber M, conduit 26, and from turret exhaust chamber l0 to atmosphere. The steam so exhausted carries with it gases and air from the head space of the containers.

Thereafter, further rotation of the receiver toward its inverted position brings the inner end of passage 50 into register with the steam` port '|0l, and steam under pressure is forced into the container during the time the receiver is being inverted, and while it is inverted, it being evident that when the receiver is inverted, the inner end of passage 50 is at the lower portion of the arc of port l0 as viewed in Figure 5.

The steam treatment is continued throughout substantially the entire revolution of the turret, and as the particular receiver approaches the discharging station, it is reverted to its upright position by being again rotated in a counter-clockwise direction, looking toward the center of the turret, by the came I2 (Fig. l). During the reverting rotation, the end of passage 50 moves throughout the right hand arc of the port |0|,as shown in automatic closing of the header valves when the containers no longer contact the valve heade The containers are then removed from the receiver at the discharging ystation and their valves are sealed or clinched, the container valves being sure' withinthe containers until the mechanical machine.

,looking toward the center of the turret.

sealing or clinching operation is carried'out. :zr:

Referring more particularly to Figure; 6;.the inner face-of the body oi' the receiver carries a plurality of inverting rollers |00, these rollers being mounted for turning movement on stub shafts |00 attached to the body of the receiver,

the centers of the shafts being equally spaced from the'cente'r of the shaft 0|, to which the re There being six 'of theserollers shown, they areV spaced sixty degrees apart through said circle. f

As shown in Figures 2 and 2a, an upwardly and outwardly extending casting |01 is secured to the frame or foundation of the machine, and terminates at its upper end in a circular level track |00 extending throughout the periphery of the The surfaceof this track is spaced below the top surface I9 of the rotary turret, and the rollers |05 carried on the inner face of the receivers roll along this track as the turret 're'- volves. From Figure 6, it will be evident that the two lowermost rollers |05 will roll along the track |00 when the receiver is in upright position, as it is when it enters and leaves the discharging and infeeding stations. The two uppermost rollers |05 shown in Figure 6 will likewise roll along the track |08 during the major portion of the revolution of the receiver with the turret. when the receiver is in inverted position.

The cams Il and I2 for turning the receivers are shown in detail in Figures 10 and 11. These two cams, located respectively adjacent the infeeding and discharging stations, are identical, and comprise a ilrst tooth ||0, and a second tooth spaced therefrom by an opening ||2. Figure 11 is a viewvof the section of the track |00 in which the receiver turning cam is inserted, In this view, the receivers would approach the cam from the right. Immediately before the rst tooth |0 there is an arcuate groove ||3 extending below have the same curvature as that ofthe receiver rollers |05, and said grooves permit the receivers to pass the turning cams, the grooves successively,

grammatic views are intended to illustrate the movements of a receiver looking from the outside of the machine toward the center of the turretI and they illustrate identical operations involved either when the receiver is being changed troni upright to inverted position, as it leaves the infeed station, or when it is being changed from inverted to upright position as it approachesthe dischargand the roller is forced down into the lilrst de` pressiolnas shown in Figure 13, thus4 turning the receiver through an angle of 30. Thereafter, further movement of the receiver from right to left brings the roller 2 down into the second groove between the two teeth, as shown in Figure 14. The receiver has nowl rotated or turned through 90. Upon further translation of the receiver from right to left, the roller 2 is moved out of the middle groove and the roller 3 is forced to enter the final groove beyond the second tooth, as shown in Figure 15. The receiver has not turned through 150. The final movement of the receiver beyond the cam turns the receiver through a nal angle of 30 in getting the roller 3 out of the final groove, and onto the track |00, as shown in Figure 16. Thus, the receiver is successively turned through 180 by each ofthe cams Il and I2 which are fixed in the trackway |08 at positions shown in Figures la and 1.

It will be noted by comparison of Figure 4 with Figures 12 and 13, that the initial turning movement of the receiver which brings the roller I di- ,rectly beneath the center of the receiver, is sumcient to move the inner end of the passage 50 from exhaust port 45 over into register with the steam port 46, so that the steam treatment commences substantially as soon as the head begins to rotate on its axis.

` Referring to Figure 5, it will be apparent that the initial turning movement of the head from its position of Figure 12 to that of Figure 13, carries the end of passage 50 from its position at the upper end of the steam port |02 for preliminary steam injection, completely past the exhaust port |03 and again into register with the steam port |I. Therefore, in using the modified valve |00, the step of exhausting the steam is a relatively instantaneous one, for the port |03 is quickly closed before there is opportunity for air to filter back into the head Vspace of the containers.

From a consideration of the movements of the receiver, with respect to the specific design of the ports in the face of the valve members 40l and |00, it will be evident that the time of exhaust e'nd steam injection may be minutely controlled by the design of these ports. The timing of the treatment may be adjusted by substituting diiferent iixed valve faces. also be controlled by the relative position of the cams Il and I2 on the turret trackway |08, and by the length or position of the container platform depressing cam L, which does not permit communication between the respective valve headers and the containers, until the roller 64 has moved away from engagement with said cam. However, the most convenient control of the process resides in the variable speed transmission device V which can control the speed of rotation of the turret and thus the time of treatment of the product.

From the above description, it will be evident that the cam Il adjacent the infeed stationinverts the receiver through 180, controlling the registration of the passage 50 with the exhaust and steam ports. It will be further evident that as the particular receiver approaches the discharging station, the other cam I2 reverts the receiver back to its upright position, thereby controiling the termination of the steam injection into the @entamer in the embodiment of Figure 4. 1n the .modication of Figure 5, the steam treatment may continue until the containers are lowered from .their treating heads.

The time of treatment mayl -Tze simultaneous infeed of groups of containers The construction of the turret and container receivers which permits simultaneous reception and treatment of a group of containers, has been described above. The advantages of such construction are obvious, one being the conservation of space on the turret, permitting a greater number of, containers to be treated in a given period of time, and another being the reduction of du'- plicated parts which would be present if a complete receiver and bracket were utilized foreach container. In order to feed containers to receivers of the type described, a special infeed mechanism is necessary. As mentioned above with reference to Figure l, the containers are fed in a line to the infeed station of the machine by a continuously moving conveyor C. 'I'his conveyor may be driven in any suitable manner from the main vdrive of the turret, its speed being coordinated in any well known manner in accordance with the design and movement of the turret and other cooperating parts.

In Figures 1 and 2, the conveyor is shown comprising two spaced continuously moving chains '|20 which move through grooves |22 in the table surface 95 .of a housing |26 which accommodates the conveyor and serves as a support for the infeed and discharge mechanisms. The housing i 26 is attached to the base 0 of the machine as shown in Figure 2. The chains |20 of the con-l veyor move over end sprockets |21 and |28 journalled for rotation in any appropriate manner in the housing |26. In the preferred form of the invention portrayed in Figure 1, the conveyor only extends to a point beyond the infeed plunger to be later described.

As shown in Figure 2, the housing |26 includes a portion |29 constituting an enclosure for the main cam drum |30 of the machine. 'I'he outer open end of the housing |29 is covered by a plate 3| bolted thereto, said plate having a central inside boss |32iwhich houses a bearing |33 for the outer end of the main cam drum shaft.

'The main cam drum shaft is shown at |34, and 'it has a reduced outer end |35 to .which the main cam drum |30 is keyed. The shaft |34 has a bearing in the housing |26 as shown at |36. Shaft |34 is driven by double chains |31 (Fig. 1) which extend from a double pulley |38 on the `outer end of the drive shaft |40 and connect with a double pulley |42 onshaft |34. Drive lcam follower roller |45 located therein, back and forth at right anglesto the conveyor C beneath n the table 95 as the drum rotates. 'I'he size and design of the cam drum and the size of the various driveconnections described above will be such that the cam drum |30 is operated in coordinated timed relation with the turret T so that the infeed mechanism to be later described opere ates at proper time to feed containers onto the turret receivers when said receivers are in proper location at the infeeding station.

Secured to the upper face of the table 95 is a hollow sleeve |46, and mounted for longitudinal reciprocating movement withink said sleeve ls a cylindrical feed plunger 4 1. 

